A heat shield includes an inner portion, an outer portion, first and second insulating portions, and a deflecting portion. The inner portion includes a reflective material to reflect thermal energy that radiates from a heat/acoustic source. The outer portion includes a rigid material to provide stru
A heat shield includes an inner portion, an outer portion, first and second insulating portions, and a deflecting portion. The inner portion includes a reflective material to reflect thermal energy that radiates from a heat/acoustic source. The outer portion includes a rigid material to provide structural support for the heat shield. The first and second insulating portions are intermediately positioned between the inner and outer portions. The deflecting portion is intermediately positioned between the first and second insulating portions to deflect acoustics from the heat/acoustic source. A method for manufacturing the heat shield is also disclosed.
대표청구항▼
1. A heat shield comprising:an inner portion and outer portion, wherein the inner portion includes a reflective material to reflect thermal energy that radiates from a heat/acoustic source, wherein the outer portion includes a rigid material to provide structural support for the heat shield; first a
1. A heat shield comprising:an inner portion and outer portion, wherein the inner portion includes a reflective material to reflect thermal energy that radiates from a heat/acoustic source, wherein the outer portion includes a rigid material to provide structural support for the heat shield; first and second insulating portions intermediately positioned between the inner and outer portions; and a deflecting portion intermediately positioned between the first and second insulating portions that deflects acoustics from the heat/acoustic source. 2. The heat shield according to claim 1, wherein the deflecting portion material is constructed of steel.3. The heat shield according to claim 1, wherein dimples and air pockets are formed on an upper surface and lower surface of the deflecting portion.4. The heat shield according to claim 3, wherein the dimples may be formed to a geometric shape, wherein the geometric shape is selected from the group consisting of a spherical shape, a pyramid shape, a conical shape, and a trapezoidal shape.5. The heat shield according to claim 3, wherein the dimples are distributed in offset rows and columns.6. The heat shield according to claim 3, wherein the dimples are distributed in a uniform row and column pattern.7. The heat shield according to claim 3, wherein the dimples are distributed in a randomized non-uniform pattern.8. The heat shield according to claim 3, wherein the dimples and air gaps are symmetrically disposed about a plane.9. The heat shield according to claim 3, wherein the dimples and air gaps are non-symmetrically disposed about a plane.10. The heat shield according to claim 3, wherein the dimples include perforations disposed about dimple peaks located on the upper surface of the deflecting portion, and about dimple valleys located on the lower surface of the deflecting portion.11. The heat shield according to claim 10, wherein the deflecting portion includes a thickness defined by the dimple peaks on an upper surface to the dimple valleys on a lower surface.12. The heat shield according to claim 1, wherein the deflecting portion may comprise a high-density wire mesh or honeycomb-shaped surface.13. The heat shield according to claim 1, wherein the inner portion material includes aluminized clad, the outer portion material includes aluminized steel, and the insulating portions includes a mineral fiber material.14. The heat shield according to claim 1, wherein the heat/acoustic source is an exhaust manifold.15. The heat shield according to claim 14, wherein the heat shield is spaced from the exhaust manifold by a predetermined distance so as to form an air gap between the exhaust manifold and the heat shield.16. The heat shield according to claim 1 further comprising at least one isolator that damps vibrations applied to the heat shield from the heat/acoustic source.17. The heat shield according to claim 16, wherein the isolator includes top and bottom cold rolled steel washers crimped about a stainless steel mesh that are positioned about an outer periphery of a low bearing tube.18. A method for manufacturing a heat shield comprising the steps of:blanking an outer portion to form a hemmed portion; positioning a first insulating portion over the outer portion; positioning an acoustic and heat deflecting portion over the first insulating portion; positioning a second insulating portion over the deflecting portion; positioning an inner portion over the second insulating portion; and hemming the hemmed portion of the outer portion about a periphery of the heat shield defined by the first insulating portion, the deflecting portion, the second insulating portion, and the inner portion. 19. The method according to claim 18 further comprising the step of forming said deflecting portion by blanking a rigid material in a press or die having a textured surface so as to produce dimples and air gaps on the deflecting portion.20. The method according to claim 18 further comprising the step of forming the heat shield to a contour of a component that shields acoustics and heat.21. The method according to claim 18 further comprising the step of forming passages in the heat shield.22. A heat shield comprising:an inner portion having a first thickness approximately equal to 0.15 nm and an outer portion having a first thickness approximately equal to 0.40 mm, wherein the inner portion includes a reflective material to reflect thermal energy that radiates from a heat/acoustic source, and wherein the outer portion includes a rigid material to provide structural support for the heat shield; a first insulating portion having a first thickness approximately equal to 0.92 mm and a second insulating portion having a first thickness approximately equal to 0.92 mm, intermediately positioned between the inner and outer portions; and a deflecting portion that includes a first thickness approximately equal to 0.91 mm, intermediately positioned between the first and second insulating portions that deflects acoustics from the heat/acoustic source.
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